Circuit arrangement and method for discharging at least one circuit node

1. A circuit arrangement for discharging at least one circuit note, comprising: an input and at least one output, the output being used to discharge the at least one circuit node; at least one controllable resistor, a capacitor and a diode; a first terminal of a controllable path of the controllable resistor being connected to the output; a second terminal of the controllable path of the controllable resistor being connected to the input; a first terminal of the capacitor and a cathode of the diode being connected to a control terminal of the controllable resistor and an anode of the diode being connected to the input; and a second terminal of the capacitor being connected to ground.

2. The circuit arrangement according to claim 1 wherein the second terminal of the controllable path of the controllable resistor is connected to the input via a resistor.

3. The circuit arrangement according to claim 1 wherein the first terminal of the capacitor is connected to a clamping circuit.

4. The circuit arrangement according to claim 3 wherein the clamping circuit is dimensioned such that a discharge of the capacitor is prevented given a decrease in a voltage present at the input.

5. The circuit arrangement according to claim 3 , wherein the clamping circuit is designed such that it limits a voltage at the capacitor to a sum voltage that approximately corresponds to a sum of a voltage present at the input and a threshold voltage of the controllable resistor.

6. The circuit arrangement according to claim 1 , wherein the first terminal of the capacitor is connected to a voltage-controlled power source.

7. The circuit arrangement according to claim 6 wherein the voltage power source is dimensioned such that a discharge of the capacitor is prevented given a decrease in a voltage present at the input.

8. The circuit arrangement according to claim 1 wherein the at least one controllable resistor comprises at least one transistor.

9. The circuit arrangement according to claim 8 wherein the at least one transistor comprises one of an NMOS transistor, an NPN bipolar transistor, and a superbeta transistor.

10. The circuit arrangement according to claim 1 wherein said circuit arrangement is designed for discharging said at least one circuit node wherein said at least one circuit node is a capacitance of about 100 pf charged to approximately 15 v and wherein the circuit node is nearly completely discharged after approximately 3 s.

11. The circuit arrangement according to claim 1 wherein the circuit arrangement comprises an integrated circuit.

12. The circuit arrangement according to claim 11 wherein the capacitor is formed by an MOS transistor.

13. An integrated circuit, comprising: a circuit arrangement for discharging at least one circuit node of the integrated circuit, said circuit arrangement comprising an input and at least one output, at least one controllable resistor, a capacitor and a diode, a first terminal of a controllable path of the controllable resistor being connected to the output, a second terminal of the controllable path of the controllable resistor being connected to the input, a first terminal of the capacitor and a cathode of the diode being connected to a control terminal of the controllable resistor and an anode of the diode being connected to the input, and a second terminal of the capacitor being connected to ground, said at least one output being connected to said at least one circuit node of the integrated circuit; and a voltage that derives from a voltage source of the integrated circuit being present at the input.

14. The integrated circuit according to claim 13 wherein said integrated circuit comprises a sensor circuit.

15. A method for discharging at least one circuit node, comprising the steps of: storing a charge on a capacitor; and delaying a discharge of said charge even after a disconnect of a supply voltage, and a controllable resistor being controlled such that after a disconnect of the supply voltage, the controllable resistor is conductive for a predetermined time duration within which the circuit node discharges nearly completely.

16. The method according to claim 15 wherein the method is implemented with a circuit arrangement for discharging the at least one circuit node wherein an input and an at least one output is provided, at least one controllable resistor, a capacitor, and a diode is provided, a first terminal of a controllable path of the controllable resistor being connected to the output, a second terminal of the controllable path of the controllable resistor being connected to the input, and a first terminal of the capacitor and a cathode of the diode being connected to a control terminal of the controllable resistor and an anode of the diode being connected to the input, and a second terminal of the capacitor being connected to ground.

17. A method according to claim 15 wherein said controllable resistor having a control input connecting to a diode and a capacitor.

18. A circuit arrangement for discharging at least one circuit note, comprising: an input and at least one output, the output being used to discharge the at least one circuit node; at least one controllable resistor, a capacitor and a diode; a first terminal of a controllable path of the controllable being connected to the output; a second terminal of the controllable path of the controllable resistor being connected to the input; a terminal of the capacitor and a cathode of the diode being connected to a control terminal of the controllable resistor and an anode of the diode being connected to the input; the terminal of the capacitor also being connected to a clamping circuit; and the clamping circuit being designed such that it limits a voltage of the capacitor to a sum voltage that approximately corresponds to a sum of a voltage present at the input and a threshold voltage of the controllable resistor.

19. A circuit arrangement for discharging at least one circuit node, comprising: an input and at least one output, the output being used to discharge the at least one circuit node; at least one controllable resistor, capacitor and a diode; a first terminal of a controllable path of the controllable resistor being connected to the output; a second terminal of the controllable path of the controllable resistor being connected to the input; a terminal of the capacitor and a cathode of the diode being connected to a control terminal of the controllable resistor and an anode of the diode being connected to the input; the terminal of the capacitor being connected to a voltage-control power source; and the power source being dimensioned such that a discharge of the capacitor is prevented given a decrease in a voltage present at the input.